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Commit 5e169d35 authored by James Schnable's avatar James Schnable
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robotics paper

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...@@ -290,11 +290,13 @@ Lab members in \textbf{bold}, $^*$authors contributed equally, $^\ddagger$underg ...@@ -290,11 +290,13 @@ Lab members in \textbf{bold}, $^*$authors contributed equally, $^\ddagger$underg
\begin{etaremune} \begin{etaremune}
\subsection*{Faculty Publications} \subsection*{Faculty Publications}
\item Atefi A, Ge Y$^\S$, Pitla S, \textbf{Schnable JC} (2020) Robotic detection and grasp of maize and sorghum: stem measurement with contact. \textsc{Robotics} \textit{(Accepted)}
\item \textbf{Raju SKK}, Atkins M, \textbf{Enerson A}$^\ddagger$, \textbf{Carvalho DS}, Studer AJ, Ganapathysubramanian B, Schnable PS, \textbf{Schnable JC}$^\S$ (2020) Leaf Angle eXtractor - A high throughput image processing framework for leaf angle measurement in maize and sorghum. \textsc{Applications in Plant Sciences} \textit{(Accepted)} \item \textbf{Raju SKK}, Atkins M, \textbf{Enerson A}$^\ddagger$, \textbf{Carvalho DS}, Studer AJ, Ganapathysubramanian B, Schnable PS, \textbf{Schnable JC}$^\S$ (2020) Leaf Angle eXtractor - A high throughput image processing framework for leaf angle measurement in maize and sorghum. \textsc{Applications in Plant Sciences} \textit{(Accepted)}
\item Wang R, Qiu Y,$^\S$ Zhou Y, \textbf{Liang Z}, \textbf{Schnable JC} (2020) A high-throughput phenotyping pipeline for image processing and functional growth curve analysis. \textsc{Plant Phenomics} \textit{(Accepted)} \item Gaillard M$^*$, \textbf{Miao C}$^*$, \textbf{Schnable JC}$^\S$, Benes B$^\S$ (2020) Voxel carving based 3D reconstruction of sorghum identifies genetic determinants of radiation interception efficiency. \textsc{Plant Direct} \textit{(Accepted)} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/2020.04.06.028605}{10.1101/2020.04.06.028605v1}
\item Gaillard M$^*$, \textbf{Miao C}$^*$, \textbf{Schnable JC}, Benes B$^\S$ (2020) Voxel carving based 3D reconstruction of sorghum identifies genetic determinants of radiation interception efficiency. \textsc{Plant Direct} \textit{(Accepted)} \textsc{bioRxiv} doi: \href{https://doi.org/10.1101/2020.04.06.028605}{10.1101/2020.04.06.028605v1} \item Wang R, Qiu Y,$^\S$ Zhou Y, \textbf{Liang Z}, \textbf{Schnable JC} (2020) A high-throughput phenotyping pipeline for image processing and functional growth curve analysis. \textsc{Plant Phenomics} doi: \href{https://doi.org/10.34133/2020/7481687}{10.34133/2020/7481687}
\item \textbf{Lai X}, Bendix C, \textbf{Yan L}, \textbf{Zhang Y}, \textbf{Schnable JC}, Harmon F$^\S$ (2020) Interspecific analysis of diurnal gene regulation in panicoid grasses identifies known and novel regulatory motifs. \textsc{BMC Genomics} doi: \href{https://doi.org/10.1186/s12864-020-06824-3}{10.1186/s12864-020-06824-3} \item \textbf{Lai X}, Bendix C, \textbf{Yan L}, \textbf{Zhang Y}, \textbf{Schnable JC}, Harmon F$^\S$ (2020) Interspecific analysis of diurnal gene regulation in panicoid grasses identifies known and novel regulatory motifs. \textsc{BMC Genomics} doi: \href{https://doi.org/10.1186/s12864-020-06824-3}{10.1186/s12864-020-06824-3}
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